溶胶-凝胶法制备LiFePO_4/C复合材料及其性能

为了提高LiFePO4的电化学性能,以柠檬酸为络合剂和碳源,采用溶胶-凝胶法制备LiFePO4/C复合正极材料。采用FTIR和XRD等对前驱体及产物进行表征,并测试样品的电化学性能。结果表明:经700℃烧结10h所得产物具有单一的橄榄石型晶体结构,碳含量为10.81%(质量分数)。样品在0.1C下首次放电比容量为127.1mA·h/g,在0.2C、0.5C、1C下首次放电比容量分别为106.1、83.3、70.6mA·h/g。该样品在0.1C下经过20次循环后,容量还保持为126.3mA·h/g,衰减仅为0.035%。循环伏安和交流阻抗测试表明该材料具有较好的电化学性能。     

电沉积制备的两种形貌Sn薄膜锂离子嵌入电极性能的比较

用电沉积方法在Cu集流体上分别制备出用于锂离子电池负极材料的密集细粒状(＜0.5 μm)和分散粗粒状(≈3 μm)两种Sn薄膜电极.用X射线衍射、扫描电镜、循环伏安及充、放电实验研究比较了两电极的组织与性能.结果表明,在氟硼酸盐溶液中使用以醛类为主的复合添加剂,在静止条件下可制得细粒Sn薄膜电极,在搅拌条件下可制得粗粒Sn薄膜电极;细粒Sn薄膜电极比粗粒Sn薄膜电极具有较优的初始嵌锂容量和循环稳定性:细粒Sn薄膜电极首次放电比容量达到787 mA·h/g,40次循环时放电比容量仍保持在630 mA·h/g;而粗粒Sn薄膜电极首次放电比容量只有576 mA·h/g,至20次循环放电比容量降至150 mA·h/g.     

锂离子电池正极材料LiMnBO_3/C的合成及其电化学性能

以LiOH·H_2O、Mn(CH_3COO)_2·4H_2O和H_3BO_3为原料,聚乙二醇6000(PEG-6000)为碳源,采用喷雾干燥法合成LiMnBO_3和LiMnBO_3/C正极材料。XRD测试表明,两种样品均为单一的六方晶体结构LiMnBO_3(h-LiMnBO_3);电化学测试表明,在电压范围1.0~4.8 V内,LiMnBO_3在0.5C倍率下的首次放电比容量为63.28mA·h/g,而LiMnBO_3/C的首次放电比容量高达135.21mA·h/g;循环50次后,两者比容量分别为31.15mA·h/g和109.69mA·h/g。碳源的加入有效地提升了LiMnBO_3的电化学性能。     

改性LiNi_(1/3)Co_(1/3)Mn_(1/3)O_2正极材料的合成及其电化学性能

采用固相反应法制备Mg2+掺杂的锂离子电池正极材料LiNil/3Col/3Mnl/3O2,并将Mg2+最佳掺杂量为0.03(摩尔分数)的样品进行CuO复合。通过X射线衍射(XRD)、扫描电镜(SEM)和电池测试系统等手段对制备的LiNil/3Col/3Mnl/3O2样品的结构、形貌及电化学性能进行表征。结果表明:Mg2+掺杂没有改变LiNil/3Col/3Mnl/3O2的层状结构,Mg2+掺杂量为0.03的LiNil/3Col/3Mnl/3-0.03Mg0.03O2材料具有最好的电化学性能和循环性能,在0.2C倍率下,首次放电比容量达158.5 mA·h/g,10次循环后容量保持率为91.2%。添加CuO的LiNil/3Col/3Mnl/3-0.03Mg0.03O2的首次放电容量为167.4 mA·h/g,高电压下达到181.0 mA·h/g;循环10次后,放电比容量为159.4 mA·h/g,容量保持率为95.3%,改性后的放电比容量、循环性能及在高倍率和高电压下的性能均得到改善。     

介孔Li3V2（PO4）3正极材料的研磨溶胶凝胶法合成和电化学性能（英文）

以V2O5·nH2O、LiOH·H2O、NH4H2PO4和蔗糖为原料,采用研磨溶胶凝胶技术制备了无定形Li3V2(PO4)3前驱体,再经过焙烧获得具有单斜结构的介孔Li3V2(PO4)3正极材料,并用XRD、SEM、TEM、比表面积和电化学性能测试来表征材料的性能。研究表明,在700°C下焙烧的样品具有良好的介孔结构、最大的比表面积(188cm2/g)和最小的孔径(9.3nm)。在0.2C倍率下,该介孔样品的首次放电容量达155.9mA·h/g,经过50次循环后其容量仍然可达154mA·h/g,表现出非常稳定的放电性能。     

锰掺杂对锂离子电池正极材料Li3V2（PO4）3/C性能的影响（英文）

采用溶胶-凝胶法合成Li3V2-2/3xMnx(PO4)3(0≤x≤0.12)。采用XRD、SEM、XPS、恒流充放电和电化学阻抗谱(EIS)研究Mn掺杂对Li3V2(PO4)3/C结构和电化学性能的影响。XRD研究表明:掺杂少量的Mn2+不会影响材料的结构,所有样品均具有单一相态的单斜结构(P21/n空间群)。XPS分析表明:在Li3V1.94Mn0.09(PO4)3/C中,V和Mn的化合价分别为+3和+2,原料中的柠檬酸在煅烧过程中分解成C而残留在Li3V1.94Mn0.09(PO4)3/C中。电化学测试表明:掺杂Mn改善了电极材料的循环性能和倍率性能,正极材料Li3V1.94Mn0.09(PO4)3/C表现出最好的循环稳定性和倍率性能。在40mA/g的放电电流密度下,循环100次后,Li3V1.94Mn0.09(PO4)3/C的放电容量从158.8mA·h/g衰减到120.5mA·h/g,容量保持率为75.9%,而未掺杂样品的放电容量从164.2mA·h/g衰减到72.6mA·h/g,容量保持率为44.2%。当放电电流密度增加到1C时,Li3V1.94Mn0.09(PO4)3/C的初始放电容量仍能达到146.4mA·h/g,循环100次后,放电容量保持为107.5mA·h/g。EIS测试表明,掺杂适量的Mn2+减小了电荷转移阻抗,这有利于Li+的脱嵌。     

负极材料LTO/G和LTO/Ag-G的合成及其电化学性能

采用溶剂热法制备锂离子电池负极材料Li_4Ti_5O_(12)/graphene(LTO/G)、Li_4Ti_5O_(12)/Ag-graphene(LTO/Ag-G)。通过X射线衍射仪(XRD)、场发射扫描电子显微镜(FE-SEM)、透射电子显微镜(TEM)和电池测试系统对合成的样品进行结构、形貌及电化学性能表征。结果表明:Ag纳米粒子(20~50 nm)均匀分布在石墨烯表面,在石墨烯和银微粒的协同作用下,LTO/Ag-G复合材料具有优良的电化学性能。该材料在0.2C和1C倍率下首次放电比容量为205.3 mA·h/g和179.3 mA·h/g;在1C倍率下,循环40次后放电比容量仍为149.6 mA·h/g。因此,LTO/Ag-G复合材料具有较好的倍率性能和循环性能,是一种理想的锂离子动力电池负极材料。     

LiFePO4包覆LiCoO2的结构及性能

采用固相法在锂离子电池正极材料LiCoO2表面包覆一层LiFePO4;研究了LiFePO4包覆量对材料性能的影响;采用X射线衍射仪和扫描电镜分析样品的晶体结构和表面形貌.研究结果表明:样品具备LiCoO2的α-NaFeO2型层状结构,但随着包覆量的增加,XRD衍射谱显示样品存在多种杂相;合成的样品电化学性能良好,当LiFePO4的包覆量为1%时,在室温下以0.1C倍率充放电,首次放电比容量达145.9 mA·h/g,纯相LiCoO2放电比容量为146.2 mA·h/g.样品采用1C倍率放电时,首次放电比容量达138.9 mA·h/g,循环性能较好,经过20次循环放电比容量仅衰减4.97%.     

Li_(1+x)Ni_(0.166)Co_(0.166)Mn_(0.667)O_(2.175+x/2)正极材料的喷雾干燥法合成及电化学性能

采用喷雾干燥法制备锂离子电池用层状富锂锰基正极材料Li(1+x)Ni0.166Co0.166Mn0.667O(2.175+x/2)(x=0.3,0.4,0.5,0.6),通过X射线衍射(XRD)、扫描电子显微镜(SEM)、等离子体发射光谱(ICP)、热重-差热分析(TG-DSC)、比表面积、粒度分布和恒流充放电等测试手段对材料的结构、形貌及电化学性能进行表征。结果表明:所制得的富锂锰基正极材料为三方层状结构(mR3)的LiNi1/3Mn1/3Co1/3O2和单斜层状结构(C2/m)的Li2MnO3组成的固溶体,且具有多孔球形形貌。当x=0.4时,材料具有最优的电化学性能。在2.0~4.8 V电压范围内,25 mA/g电流密度下材料的首次放电比容量高达277.5 mA·h/g,20周循环后容量保持率达95.3%,500 mA/g电流密度下放电比容量仍达192.5 mA·h/g。     

Mg-Co复合掺杂对LiFePO4电化学性能的影响（英文）

通过固相反应制备了Mg2+和Co4+复合掺杂的LiFePO4电极材料。采用X射线衍射、恒电流充放电和循环伏安研究复合掺杂对 LiFePO4结构和电化学性能的影响。结果表明:复合掺杂能够提高 LiFePO4的首次放电比容量,0.1C和1C的放电容量分别达到147.2mA·h/g 和133.3mA·h/g。循环伏安测试结果表明:复合掺杂改善了LiFePO4的导电性能,增强了Li+的脱嵌可逆性。     

Structural, mechanical and corrosion properties of TiOxNy/ZrOxNy multilayer coatings

Results on the deposition and characterization of TiO_xN_y/ZrO_xN_y multilayers, with bilayer periods of 20 and 400 nm, are presented. The coatings were deposited on TiNiNb alloy substrates by the pulsed magnetron sputtering method. The elemental composition, hardness, adhesion and corrosion resistance of the coatings were analyzed.As resulted from the XPS analysis, the individual layers consisted of a mixture of titanium or zirconium oxynitrides and corresponding oxides. X-ray analysis revealed that the coatings were amorphous. Only slight differences between the microhardness and adhesion values of the coatings with small and large bilayer period Λ were found. The experiments also showed that the multilayered coatings improved the corrosion resistance of the uncoated alloy and reduced the amount of ion release in artificial body fluids.     

生物医用NiTi形状记忆合金腐蚀研究进展

镍钛形状记忆合金(NiTi-SMA)具有较好的耐腐蚀和机械性能,在口腔和临床医学中有着大量而广泛的应用。NiTi-SMA腐蚀后释放Ni²⁺会引发细胞毒性和过敏反应,进一步提高NiTi-SMA的耐蚀性是目前生物医学材料领域发展的核心之一。本文对近年来国内外有关口腔医学和临床医学中常用NiTi-SMA的腐蚀研究现状进行了总结,同时也对NiTi-SMA增材制造及表面改性技术进行了评述,以期为开发高性能抗腐蚀生物医用NiTi-SMA提供一定的指导意义。     

Li掺杂Ba(Ti1/7Sn1/7Zr1/7Hf1/7Nb1/7Ga1/7Li(1/7-x))O3高熵陶瓷的制备及介电性能研究

近年来,在高熵合金基础上发展起来的高熵陶瓷逐渐引起了研究者的广泛关注,其出现为开发高性能的无机非金属材料提供了新的设计思路。本文采用固相法制备了BaMO3基钙钛矿型高熵陶瓷Ba(Ti1/7Sn1/7Zr1/7Hf1/7Nb1/7Ga1/7Li(1/7-x))O3 (x = 0, 2.3%, 5.3%, 8.3%, 11.3%),并研究了Li含量对高熵陶瓷物相结构、微观形貌及介电性能的影响。结果表明,Li含量对陶瓷结构的影响不大,陶瓷均保持立方钙钛矿结构,且无杂相产生;陶瓷的晶粒尺寸相对较均匀。当x = 0时,即B位七元等摩尔比Ba(Ti1/7Sn1/7Zr1/7Hf1/7Nb1/7Ga1/7Li1/7)O3高熵陶瓷,其介电常数达到了最大值2920 (@100 Hz),相较于已报道的不掺Li的六元高熵钙钛矿陶瓷Ba(Ti1/6Sn1/6Zr1/6Hf1/6Nb1/6Ga1/6)O3提升了近50倍。     

MOCVD growth and characterizations of BxAl1−xAs and BxAl1−x−yInyAs alloys

Zinc-blende B_xAl_1−xAs and B_xAl_1−x−yIn_yAs alloys have been grown on exactly oriented (0 0 1)GaAs substrates by low pressure metalorganic chemical vapor deposition (LP-MOCVD). The influence of susceptor coating, growth temperature and gas-phase boron mole fraction on boron incorporation into AlAs has been comprehensively investigated. It has been found that boron incorporation into AlAs could be enhanced and the optimal growth temperature range of B_xAl_1−xAs alloys changed from 580 °C to 610 °C when SiC-coated graphite susceptors were replaced by the non-coated ones. In this study, the maximum boron composition x of 2.8% was achieved for the pseudomorphically strained B_xAl_1−xAs alloys. AFM measurements show that RMS roughness of B_xAl_1−xAs alloys increased sharply with the increase of gas-phase boron mole fraction. Raman spectra of B_xAl_1−xAs alloys show a linear increase of the BAs shift with boron composition x. Based on BAlAs deposition, bulk B_xAl_1−x−yIn_yAs (x = 1.9%) quaternary alloy was grown lattice-matched to GaAs successfully. Moreover, 10-period BAlAs/GaAs and BAlInAs/GaAs MQW heterostructures were also demonstrated.     

Ag/LaNixCo1-xO3触点材料的制备及电接触性能研究

本文运用溶胶-凝胶燃烧法合成了双钙钛矿型LaNixCo1-xO3(LNCO)纳米材料,利用粉末冶金和热挤压技术制备了相应的Ag/LNCO触点材料及元件样品。重点考察了不同Ni、Co含量对Ag/LNCO触点材料微观结构、物相组成、物理性能、力学性能及电寿命服役能力的影响,对其电弧侵蚀失效行为进行了研究,并与SnO2粉体增强Ag基触点材料进行对比。结果表明:溶胶凝胶法合成的LNCO纳米颗粒粒径为20-30 nm,经粉末冶金工艺制备的Ag/LaNi0.5Co0.5O3触点材料电学性能和电寿命都优于Ag/SnO2触点材料,其电阻率低至2.10 μΩ?cm,电寿命性能达到51287次。表明Ag/LaNi0.5Co0.5O3触点材料性能较佳,是一种可以取代Ag/CdO的新型触点材料。     

Hydrothermal synthesis of superconductors Ba1−xKxBiO3 and double perovskites Ba1−xKxBi1−yNayO3

Superconductors Ba_1−xK_xBiO₃ and body-centered double perovskites Ba_1−xK_xBi_1−yNa_yO₃ have been selectively synthesized by a facile hydrothermal route. The appropriate ratio and adding sequence of initial reagents, alkalinity, reaction temperature and time are the critical factors that influence the crystal growth of the compounds. The purity and homogeneity of the crystals were detected by the ICP, SEM, EDX and TEM studies. Magnetic measurements show that the superconducting transition temperatures T_C of Ba_1−xK_xBiO₃ decrease from 22 K (for x = 0.35) to 8 K (for x = 0.55) with increasing the K doping level.     

Magnetic phase diagrams of the TbRh2−xPdxPdxSi2 and TbRu2−xPdxSi2 systems

The a.c. susceptibility and high field magnetization on TbRh_2−xPd_xPd_xSi₂ and TbRu_2−xPd_xSi₂ compounds were investigated up to 140 kOe. The (T,x) magnetic phase diagrams were determined. For both systems, an increase in the Pd content causes a decrease in the Néel temperature and changes the magnetization curves.     

High strength and good ductility of casting Al-Cu alloy modified by PrxOy and LaxOy

A modified Al-Cu alloy with high tensile strength and ductility of about 574.0 MPa and 10.4%, respectively, was obtained by adding multiple rare earth oxides (Pr_xO_y and La_xO_y) as modifier. Compared with the unmodified Al-Cu alloy, the tensile strength and ductility of the modified sample were increased by 24.3% and 42.5%, respectively. The improvement both in the strength and ductility may attribute to the finer crystal grains and dendrites, more homogeneously distributed θ′ phase precipitates and the intermetallic compounds formed at the crystal grain boundaries as well as in the space of the dendrites.     

Si3N4/Ti/Cu/Ni/Cu/Ti/Si3N4二次部分瞬间液相连接强度

采用Ti/Cu／Ni中间层对Si3N4陶瓷进行二次部分瞬间液相(PTLP)连接，研究连接工艺参数对Si3N4／Ti/Cu／Ni连接强度的影响，同时研究了连接强度随试验温度的变化规律。结果表明，在该试验条件下，室温连接强度随着二次连接温度的提高和二次保温时间的延长而提高，改变连接工艺参数对Si3N4／Ti/Cu／Ni二次PTLP连接界面反应层厚度无明显影响；连接强度在试验温度400℃时达到最大，随后随试验温度升高，连接强度降低，但在800℃前，其高温强度具有很好的稳定性。